#!/usr/bin/env python3 # Copyright 2012-2016 The Meson development team # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # http://www.apache.org/licenses/LICENSE-2.0 # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. from glob import glob import os, subprocess, shutil, sys, signal from io import StringIO from ast import literal_eval from enum import Enum import tempfile import mesontest from mesonbuild import environment from mesonbuild import mesonlib from mesonbuild import mlog from mesonbuild import mesonmain from mesonbuild.mesonlib import stringlistify, Popen_safe import argparse import xml.etree.ElementTree as ET import time import multiprocessing import concurrent.futures as conc from mesonbuild.coredata import backendlist class BuildStep(Enum): configure = 1 build = 2 test = 3 install = 4 clean = 5 class TestResult: def __init__(self, msg, step, stdo, stde, mlog, conftime=0, buildtime=0, testtime=0): self.msg = msg self.step = step self.stdo = stdo self.stde = stde self.mlog = mlog self.conftime = conftime self.buildtime = buildtime self.testtime = testtime class DummyFuture(conc.Future): ''' Dummy Future implementation that executes the provided function when you ask for the result. Used on platforms where sem_open() is not available: MSYS2, OpenBSD, etc: https://bugs.python.org/issue3770 ''' def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) def set_function(self, fn, *args, **kwargs): self.fn = fn self.fn_args = args self.fn_kwargs = kwargs def result(self, **kwargs): try: result = self.fn(*self.fn_args, **self.fn_kwargs) except BaseException as e: self.set_exception(e) else: self.set_result(result) return super().result(**kwargs) class DummyExecutor(conc.Executor): ''' Dummy single-thread 'concurrent' executor for use on platforms where sem_open is not available: https://bugs.python.org/issue3770 ''' def __init__(self): from threading import Lock self._shutdown = False self._shutdownLock = Lock() def submit(self, fn, *args, **kwargs): with self._shutdownLock: if self._shutdown: raise RuntimeError('Cannot schedule new futures after shutdown') f = DummyFuture() f.set_function(fn, *args, **kwargs) return f def shutdown(self, wait=True): with self._shutdownLock: self._shutdown = True class AutoDeletedDir: def __init__(self, d): self.dir = d def __enter__(self): os.makedirs(self.dir, exist_ok=True) return self.dir def __exit__(self, _type, value, traceback): # On Windows, shutil.rmtree fails sometimes, because 'the directory is not empty'. # Retrying fixes this. # That's why we don't use tempfile.TemporaryDirectory, but wrap the deletion in the AutoDeletedDir class. retries = 5 for i in range(0, retries): try: shutil.rmtree(self.dir) return # Sometimes we get: ValueError: I/O operation on closed file. except ValueError: return # Deleting can raise OSError or PermissionError on Windows # (most likely because of anti-virus locking the file) except (OSError, PermissionError): if i == retries - 1: mlog.warning('Could not delete temporary directory.') return time.sleep(0.1 * (2**i)) failing_logs = [] print_debug = 'MESON_PRINT_TEST_OUTPUT' in os.environ do_debug = not {'MESON_PRINT_TEST_OUTPUT', 'TRAVIS', 'APPVEYOR'}.isdisjoint(os.environ) no_meson_log_msg = 'No meson-log.txt found.' meson_command = os.path.join(os.getcwd(), 'meson') if not os.path.exists(meson_command): meson_command += '.py' if not os.path.exists(meson_command): raise RuntimeError('Could not find main Meson script to run.') class StopException(Exception): def __init__(self): super().__init__('Stopped by user') stop = False def stop_handler(signal, frame): global stop stop = True signal.signal(signal.SIGINT, stop_handler) signal.signal(signal.SIGTERM, stop_handler) # unity_flags = ['--unity'] unity_flags = [] backend_flags = None compile_commands = None test_commands = None install_commands = [] clean_commands = [] def setup_commands(backend): global backend_flags, compile_commands, test_commands, install_commands, clean_commands msbuild_exe = shutil.which('msbuild') if (backend and backend.startswith('vs')) or (backend is None and msbuild_exe is not None): if backend is None: backend = 'vs2010' backend_flags = ['--backend=' + backend] compile_commands = ['msbuild'] test_commands = ['msbuild', 'RUN_TESTS.vcxproj'] elif backend == 'xcode' or (backend is None and mesonlib.is_osx()): backend_flags = ['--backend=xcode'] compile_commands = ['xcodebuild'] test_commands = ['xcodebuild', '-target', 'RUN_TESTS'] else: backend_flags = [] # We need at least 1.6 because of -w dupbuild=err ninja_command = environment.detect_ninja(version='1.6') if ninja_command is None: raise RuntimeError('Could not find Ninja v1.6 or newer') if do_debug: compile_commands = [ninja_command, '-v'] else: compile_commands = [ninja_command] compile_commands += ['-w', 'dupbuild=err'] test_commands = [ninja_command, 'test', 'benchmark'] install_commands = [ninja_command, 'install'] clean_commands = [ninja_command, 'clean'] def get_compile_commands_for_dir(compile_commands, test_build_dir): if 'msbuild' in compile_commands[0]: sln_name = glob(os.path.join(test_build_dir, '*.sln'))[0] comp = compile_commands + [os.path.split(sln_name)[-1]] else: comp = compile_commands return comp def get_relative_files_list_from_dir(fromdir): paths = [] for (root, _, files) in os.walk(fromdir): reldir = os.path.relpath(root, start=fromdir) for f in files: path = os.path.join(reldir, f).replace('\\', '/') if path.startswith('./'): path = path[2:] paths.append(path) return paths def platform_fix_exe_name(fname): if not fname.endswith('?exe'): return fname fname = fname[:-4] if mesonlib.is_windows(): return fname + '.exe' return fname def validate_install(srcdir, installdir): # List of installed files info_file = os.path.join(srcdir, 'installed_files.txt') # If this exists, the test does not install any other files noinst_file = 'usr/no-installed-files' expected = {} found = {} ret_msg = '' # Generate list of expected files if os.path.exists(os.path.join(installdir, noinst_file)): expected[noinst_file] = False elif os.path.exists(info_file): with open(info_file) as f: for line in f: expected[platform_fix_exe_name(line.strip())] = False # Check if expected files were found for fname in expected: if os.path.exists(os.path.join(installdir, fname)): expected[fname] = True for (fname, found) in expected.items(): if not found: ret_msg += 'Expected file {0} missing.\n'.format(fname) # Check if there are any unexpected files found = get_relative_files_list_from_dir(installdir) for fname in found: # Windows-specific tests check for the existence of installed PDB # files, but common tests do not, for obvious reasons. Ignore any # extra PDB files found. if fname not in expected and not fname.endswith('.pdb') and compiler == 'cl': ret_msg += 'Extra file {0} found.\n'.format(fname) return ret_msg def log_text_file(logfile, testdir, stdo, stde): global stop, executor, futures logfile.write('%s\nstdout\n\n---\n' % testdir) logfile.write(stdo) logfile.write('\n\n---\n\nstderr\n\n---\n') logfile.write(stde) logfile.write('\n\n---\n\n') if print_debug: print(stdo) print(stde, file=sys.stderr) if stop: print("Aborting..") for f in futures: f[2].cancel() executor.shutdown() raise StopException() def run_configure_inprocess(commandlist): old_stdout = sys.stdout sys.stdout = mystdout = StringIO() old_stderr = sys.stderr sys.stderr = mystderr = StringIO() try: returncode = mesonmain.run(commandlist[0], commandlist[1:]) finally: sys.stdout = old_stdout sys.stderr = old_stderr return returncode, mystdout.getvalue(), mystderr.getvalue() def run_test_inprocess(testdir): old_stdout = sys.stdout sys.stdout = mystdout = StringIO() old_stderr = sys.stderr sys.stderr = mystderr = StringIO() old_cwd = os.getcwd() os.chdir(testdir) try: returncode_test = mesontest.run(['--no-rebuild']) returncode_benchmark = mesontest.run(['--no-rebuild', '--benchmark', '--logbase', 'benchmarklog']) finally: sys.stdout = old_stdout sys.stderr = old_stderr os.chdir(old_cwd) return max(returncode_test, returncode_benchmark), mystdout.getvalue(), mystderr.getvalue() def parse_test_args(testdir): args = [] try: with open(os.path.join(testdir, 'test_args.txt'), 'r') as f: content = f.read() try: args = literal_eval(content) except Exception: raise Exception('Malformed test_args file.') args = stringlistify(args) except FileNotFoundError: pass return args def run_test(skipped, testdir, extra_args, flags, compile_commands, should_fail): if skipped: return None with AutoDeletedDir(tempfile.mkdtemp(prefix='b ', dir='.')) as build_dir: with AutoDeletedDir(tempfile.mkdtemp(prefix='i ', dir=os.getcwd())) as install_dir: try: return _run_test(testdir, build_dir, install_dir, extra_args, flags, compile_commands, should_fail) finally: mlog.shutdown() # Close the log file because otherwise Windows wets itself. def _run_test(testdir, test_build_dir, install_dir, extra_args, flags, compile_commands, should_fail): global install_commands, clean_commands test_args = parse_test_args(testdir) gen_start = time.time() # Configure in-process gen_command = [meson_command, '--prefix', '/usr', '--libdir', 'lib', testdir, test_build_dir]\ + flags + test_args + extra_args (returncode, stdo, stde) = run_configure_inprocess(gen_command) try: logfile = os.path.join(test_build_dir, 'meson-logs/meson-log.txt') with open(logfile, errors='ignore') as f: mesonlog = f.read() except Exception: mesonlog = no_meson_log_msg gen_time = time.time() - gen_start if should_fail == 'meson': if returncode != 0: return TestResult('', BuildStep.configure, stdo, stde, mesonlog, gen_time) return TestResult('Test that should have failed succeeded', BuildStep.configure, stdo, stde, mesonlog, gen_time) if returncode != 0: return TestResult('Generating the build system failed.', BuildStep.configure, stdo, stde, mesonlog, gen_time) # Build with subprocess comp = get_compile_commands_for_dir(compile_commands, test_build_dir) build_start = time.time() pc, o, e = Popen_safe(comp, cwd=test_build_dir) build_time = time.time() - build_start stdo += o stde += e if should_fail == 'build': if pc.returncode != 0: return TestResult('', BuildStep.build, stdo, stde, mesonlog, gen_time) return TestResult('Test that should have failed to build succeeded', BuildStep.build, stdo, stde, mesonlog, gen_time) if pc.returncode != 0: return TestResult('Compiling source code failed.', BuildStep.build, stdo, stde, mesonlog, gen_time, build_time) # Touch the meson.build file to force a regenerate so we can test that # regeneration works. We need to sleep for 0.2s because Ninja tracks mtimes # at a low resolution: https://github.com/ninja-build/ninja/issues/371 time.sleep(0.2) os.utime(os.path.join(testdir, 'meson.build')) test_start = time.time() # Test in-process (returncode, tstdo, tstde) = run_test_inprocess(test_build_dir) test_time = time.time() - test_start stdo += tstdo stde += tstde if should_fail == 'test': if returncode != 0: return TestResult('', BuildStep.test, stdo, stde, mesonlog, gen_time) return TestResult('Test that should have failed to run unit tests succeeded', BuildStep.test, stdo, stde, mesonlog, gen_time) if returncode != 0: return TestResult('Running unit tests failed.', BuildStep.test, stdo, stde, mesonlog, gen_time, build_time, test_time) if len(install_commands) == 0: return TestResult('', BuildStep.install, '', '', mesonlog, gen_time, build_time, test_time) env = os.environ.copy() env['DESTDIR'] = install_dir # Install with subprocess pi, o, e = Popen_safe(install_commands, cwd=test_build_dir, env=env) stdo += o stde += e if pi.returncode != 0: return TestResult('Running install failed.', BuildStep.install, stdo, stde, mesonlog, gen_time, build_time, test_time) if len(clean_commands) != 0: env = os.environ.copy() # Clean with subprocess pi, o, e = Popen_safe(clean_commands, cwd=test_build_dir, env=env) stdo += o stde += e if pi.returncode != 0: return TestResult('Running clean failed.', BuildStep.clean, stdo, stde, mesonlog, gen_time, build_time, test_time) return TestResult(validate_install(testdir, install_dir), BuildStep.clean, stdo, stde, mesonlog, gen_time, build_time, test_time) def gather_tests(testdir): tests = [t.replace('\\', '/').split('/', 2)[2] for t in glob(os.path.join(testdir, '*'))] testlist = [(int(t.split()[0]), t) for t in tests] testlist.sort() tests = [os.path.join(testdir, t[1]) for t in testlist] return tests def have_d_compiler(): if shutil.which("ldc2"): return True elif shutil.which("ldc"): return True elif shutil.which("gdc"): return True elif shutil.which("dmd"): return True return False def have_java(): if shutil.which('javac') and shutil.which('java'): return True return False def using_backend(backends): if isinstance(backends, str): backends = (backends,) for backend in backends: if backend == 'ninja': if not backend_flags: return True elif backend == 'xcode': if backend_flags == '--backend=xcode': return True elif backend == 'vs': if backend_flags.startswith('--backend=vs'): return True else: raise AssertionError('Unknown backend type: ' + backend) return False def detect_tests_to_run(): all_tests = [] all_tests.append(('common', gather_tests('test cases/common'), False)) all_tests.append(('failing-meson', gather_tests('test cases/failing'), False)) all_tests.append(('failing-build', gather_tests('test cases/failing build'), False)) all_tests.append(('failing-tests', gather_tests('test cases/failing tests'), False)) all_tests.append(('prebuilt', gather_tests('test cases/prebuilt'), False)) all_tests.append(('platform-osx', gather_tests('test cases/osx'), False if mesonlib.is_osx() else True)) all_tests.append(('platform-windows', gather_tests('test cases/windows'), False if mesonlib.is_windows() else True)) all_tests.append(('platform-linux', gather_tests('test cases/linuxlike'), False if not (mesonlib.is_osx() or mesonlib.is_windows()) else True)) all_tests.append(('framework', gather_tests('test cases/frameworks'), False if not mesonlib.is_osx() and not mesonlib.is_windows() else True)) all_tests.append(('java', gather_tests('test cases/java'), False if using_backend('ninja') and not mesonlib.is_osx() and have_java() else True)) all_tests.append(('C#', gather_tests('test cases/csharp'), False if using_backend('ninja') and shutil.which('mcs') else True)) all_tests.append(('vala', gather_tests('test cases/vala'), False if using_backend('ninja') and shutil.which('valac') else True)) all_tests.append(('rust', gather_tests('test cases/rust'), False if using_backend('ninja') and shutil.which('rustc') else True)) all_tests.append(('d', gather_tests('test cases/d'), False if using_backend('ninja') and have_d_compiler() else True)) all_tests.append(('objective c', gather_tests('test cases/objc'), False if using_backend(('ninja', 'xcode')) and not mesonlib.is_windows() else True)) all_tests.append(('fortran', gather_tests('test cases/fortran'), False if using_backend('ninja') and shutil.which('gfortran') else True)) all_tests.append(('swift', gather_tests('test cases/swift'), False if using_backend(('ninja', 'xcode')) and shutil.which('swiftc') else True)) all_tests.append(('python3', gather_tests('test cases/python3'), False if using_backend('ninja') and shutil.which('python3') else True)) return all_tests def run_tests(all_tests, log_name_base, extra_args): global stop, executor, futures txtname = log_name_base + '.txt' xmlname = log_name_base + '.xml' logfile = open(txtname, 'w', encoding="utf_8") junit_root = ET.Element('testsuites') conf_time = 0 build_time = 0 test_time = 0 passing_tests = 0 failing_tests = 0 skipped_tests = 0 try: # This fails in some CI environments for unknown reasons. num_workers = multiprocessing.cpu_count() except Exception as e: print('Could not determine number of CPUs due to the following reason:' + str(e)) print('Defaulting to using only one process') num_workers = 1 try: executor = conc.ProcessPoolExecutor(max_workers=num_workers) except ImportError: print('Platform doesn\'t ProcessPoolExecutor, falling back to single-threaded testing\n') executor = DummyExecutor() for name, test_cases, skipped in all_tests: current_suite = ET.SubElement(junit_root, 'testsuite', {'name': name, 'tests': str(len(test_cases))}) if skipped: print('\nNot running %s tests.\n' % name) else: print('\nRunning %s tests.\n' % name) futures = [] for t in test_cases: # Jenkins screws us over by automatically sorting test cases by name # and getting it wrong by not doing logical number sorting. (testnum, testbase) = os.path.split(t)[-1].split(' ', 1) testname = '%.3d %s' % (int(testnum), testbase) should_fail = False if name.startswith('failing'): should_fail = name.split('failing-')[1] result = executor.submit(run_test, skipped, t, extra_args, unity_flags + backend_flags, compile_commands, should_fail) futures.append((testname, t, result)) for (testname, t, result) in futures: sys.stdout.flush() result = result.result() if result is None or 'MESON_SKIP_TEST' in result.stdo: print('Skipping:', t) current_test = ET.SubElement(current_suite, 'testcase', {'name': testname, 'classname': name}) ET.SubElement(current_test, 'skipped', {}) skipped_tests += 1 else: without_install = "" if len(install_commands) > 0 else " (without install)" if result.msg != '': print('Failed test{} during {}: {!r}'.format(without_install, result.step.name, t)) print('Reason:', result.msg) failing_tests += 1 if result.step == BuildStep.configure and result.mlog != no_meson_log_msg: # For configure failures, instead of printing stdout, # print the meson log if available since it's a superset # of stdout and often has very useful information. failing_logs.append(result.mlog) else: failing_logs.append(result.stdo) failing_logs.append(result.stde) else: print('Succeeded test%s: %s' % (without_install, t)) passing_tests += 1 conf_time += result.conftime build_time += result.buildtime test_time += result.testtime total_time = conf_time + build_time + test_time log_text_file(logfile, t, result.stdo, result.stde) current_test = ET.SubElement(current_suite, 'testcase', {'name': testname, 'classname': name, 'time': '%.3f' % total_time}) if result.msg != '': ET.SubElement(current_test, 'failure', {'message': result.msg}) stdoel = ET.SubElement(current_test, 'system-out') stdoel.text = result.stdo stdeel = ET.SubElement(current_test, 'system-err') stdeel.text = result.stde print("\nTotal configuration time: %.2fs" % conf_time) print("Total build time: %.2fs" % build_time) print("Total test time: %.2fs" % test_time) ET.ElementTree(element=junit_root).write(xmlname, xml_declaration=True, encoding='UTF-8') return passing_tests, failing_tests, skipped_tests def check_file(fname): linenum = 1 with open(fname, 'rb') as f: lines = f.readlines() for line in lines: if b'\t' in line: print("File %s contains a literal tab on line %d. Only spaces are permitted." % (fname, linenum)) sys.exit(1) if b'\r' in line: print("File %s contains DOS line ending on line %d. Only unix-style line endings are permitted." % (fname, linenum)) sys.exit(1) linenum += 1 def check_format(): for (root, _, files) in os.walk('.'): for file in files: if file.endswith('.py') or file.endswith('.build') or file == 'meson_options.txt': fullname = os.path.join(root, file) check_file(fullname) def pbcompile(compiler, source, objectfile): if compiler == 'cl': cmd = [compiler, '/nologo', '/Fo' + objectfile, '/c', source] else: cmd = [compiler, '-c', source, '-o', objectfile] subprocess.check_call(cmd, stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL) def generate_pb_object(compiler, object_suffix): source = 'test cases/prebuilt/1 object/source.c' objectfile = 'test cases/prebuilt/1 object/prebuilt.' + object_suffix pbcompile(compiler, source, objectfile) return objectfile def generate_pb_static(compiler, object_suffix, static_suffix): source = 'test cases/prebuilt/2 static/libdir/best.c' objectfile = 'test cases/prebuilt/2 static/libdir/best.' + object_suffix stlibfile = 'test cases/prebuilt/2 static/libdir/libbest.' + static_suffix pbcompile(compiler, source, objectfile) if compiler == 'cl': linker = ['lib', '/NOLOGO', '/OUT:' + stlibfile, objectfile] else: linker = ['ar', 'csr', stlibfile, objectfile] subprocess.check_call(linker) os.unlink(objectfile) return stlibfile def generate_prebuilt(): global compiler static_suffix = 'a' if shutil.which('cl'): compiler = 'cl' static_suffix = 'lib' elif shutil.which('cc'): compiler = 'cc' elif shutil.which('gcc'): compiler = 'gcc' else: raise RuntimeError("Could not find C compiler.") if mesonlib.is_windows(): object_suffix = 'obj' else: object_suffix = 'o' objectfile = generate_pb_object(compiler, object_suffix) stlibfile = generate_pb_static(compiler, object_suffix, static_suffix) return objectfile, stlibfile def check_meson_commands_work(): global meson_command, compile_commands, test_commands, install_commands testdir = 'test cases/common/1 trivial' with AutoDeletedDir(tempfile.mkdtemp(prefix='b ', dir='.')) as build_dir: print('Checking that configuring works...') gen_cmd = [sys.executable, meson_command, testdir, build_dir] + backend_flags pc, o, e = Popen_safe(gen_cmd) if pc.returncode != 0: raise RuntimeError('Failed to configure {!r}:\n{}\n{}'.format(testdir, e, o)) print('Checking that building works...') compile_cmd = get_compile_commands_for_dir(compile_commands, build_dir) pc, o, e = Popen_safe(compile_cmd, cwd=build_dir) if pc.returncode != 0: raise RuntimeError('Failed to build {!r}:\n{}\n{}'.format(testdir, e, o)) print('Checking that testing works...') pc, o, e = Popen_safe(test_commands, cwd=build_dir) if pc.returncode != 0: raise RuntimeError('Failed to test {!r}:\n{}\n{}'.format(testdir, e, o)) if install_commands: print('Checking that installing works...') pc, o, e = Popen_safe(install_commands, cwd=build_dir) if pc.returncode != 0: raise RuntimeError('Failed to install {!r}:\n{}\n{}'.format(testdir, e, o)) if __name__ == '__main__': parser = argparse.ArgumentParser(description="Run the test suite of Meson.") parser.add_argument('extra_args', nargs='*', help='arguments that are passed directly to Meson (remember to have -- before these).') parser.add_argument('--backend', default=None, dest='backend', choices=backendlist) options = parser.parse_args() setup_commands(options.backend) # Appveyor sets the `platform` environment variable which completely messes # up building with the vs2010 and vs2015 backends. # # Specifically, MSBuild reads the `platform` environment variable to set # the configured value for the platform (Win32/x64/arm), which breaks x86 # builds. # # Appveyor setting this also breaks our 'native build arch' detection for # Windows in environment.py:detect_windows_arch() by overwriting the value # of `platform` set by vcvarsall.bat. # # While building for x86, `platform` should be unset. if 'APPVEYOR' in os.environ and os.environ['arch'] == 'x86': os.environ.pop('platform') script_dir = os.path.split(__file__)[0] if script_dir != '': os.chdir(script_dir) check_format() check_meson_commands_work() pbfiles = generate_prebuilt() try: all_tests = detect_tests_to_run() (passing_tests, failing_tests, skipped_tests) = run_tests(all_tests, 'meson-test-run', options.extra_args) except StopException: pass for f in pbfiles: os.unlink(f) print('\nTotal passed tests:', passing_tests) print('Total failed tests:', failing_tests) print('Total skipped tests:', skipped_tests) if failing_tests > 0: print('\nMesonlogs of failing tests\n') for l in failing_logs: print(l, '\n') sys.exit(failing_tests)